DE2240952B2 - FIXING DEVICE - Google Patents

Description

The invention relates to a fixing device for fixing a toner image on the photoconductive one Layer a sheet-like recording material by the vapor of a fixing solvent.

In the process of electrophotography, one becomes more photoconductive Film first electrostatically charged and then exposed through an image, with a liquid Developer which usually contains finely divided toner particles in a volatile solvent. The visible image formed is then fixed on the film surface.

There are various methods for fixing the visible image, e.g. B. image fusing with the application of heat or coating of the film surface with a resin solvent. In these processes, intensive heating is required. Continued heat effects are known to have a disruptive effect on the photoconductor and the film base. The heat radiation or heat insulation must therefore be carefully regulated. A completely satisfactory equipment of the heating mechanism with regard to a short warm-up time, low electrical power requirements and fire hazard is difficult, furthermore image distortion can be caused in such methods. It is very difficult to produce a micro-image with a resolving power of more than 30 lines per mm. It has also been proposed to fix the visible image in the vapor atmosphere of a solvent (vapor fixation), for example, the photoconductive film is softened in the presence of the solvent vapor to fix a visible image formed by the toner on the surface of the film without image distortion. The photoconductive film suitable for this fixation consists essentially of an organic material such as poly-N-vinylcarbazole; the solvent used for fixation is a volatile organic solvent such as methylene chloride. The steam setting process is suitable for producing micrographs on a film that has previously been mounted on sliding cardboard or an aperture card. In the case of steam fixation, it is important that the solvent vapor only comes into contact with the photoconductive film during fixation. When large volumes of vapor of solvent escape from the device, a noxious atmosphere is created for the operator. In the device for the continuous fixation of a film roll, a ventilation device is required that avoids atmospheric pollution.

Steam fixing devices with steam chambers that are open on one side, through which one is to be fixed Area to be closed more or less tightly, are from de.i US-PS 27 26166, 28 84 704 and 3049810 known.

US-PS 3049810 describes a device with a movable steam chamber. Pulling the chamber with steam takes a long time, the steam supply is not adjustable, so that the device must be equipped with numerous locking elements. In the devices of U.S. Patent 2,726,166 and 2884 704 steam is constantly being generated, even if it is not intended to fix. To an escape from Complicated locking devices are also necessary to prevent vapor from escaping the chamber.

According to US-PS 31 17847 a predetermined amount of solvent is fed into the fixing chamber and evaporates, the steam generation is the rule compared to the devices mentioned above However, evaporated solvent can cool and condense on the inner wall of the fixing chamber, remains unused and can drip onto the carrier material as it trickles down. This equipment therefore does not allow uniform fixing.

The invention was based on the object of an expedient Fixing device for fixing a toner image on the photo-capable surface of a film to create by means of fixing solvent vapor, with a small amount of steam consumption aimed at and for A low-power heating element is provided for easier and rapid evaporation of the fixing solvent became.

This desired fixing device should be a

allow rapid discharge of the fixative solvent vapor used after fixation.

According to the invention, the stated object was achieved with a fixing device for fixing a toner image on the organic photoconductor being composed of a photoconductive layer of a film-like Recording material, with a fixing chamber which has an opening covering the image to be fixed, and an evaporation chamber which is arranged in the fixing chamber and which has an inlet with a supply device connected to a volatile solvent and in heat exchange with a heating element stands. This fixing device is characterized by a device for moving the Recording material relative and perpendicular to the opening plane of the fixing chamber in order to be connected to the photoconductive Layer to close the opening airtight, and by a arranged in the fixing chamber, with the heating element of the evaporation chamber standing in heat exchange heat radiation plate, the the opening plane of the fixing chamber faces parallel to the surface to form a narrow space and closes off the fixing chamber except for a passage leading to the evaporation chamber.

The fixing device according to the invention requires only small amounts of solvent to fix the developed image because the heat radiation plate is arranged in the vicinity of the photoconductive film in parallel with one another and the steam only fills a very narrow space. As a result of their heating, the heat radiation plate no condensation of steam occurs.

The fixation device enables a very quick and even fixation. Steam losses will be switched off.

In the drawings shows

Fig. 1 is a perspective view of a photoconductive film unit in the device,

FIG. 2 is an enlarged view of section 2-2 of FIG. 1,

3 shows a general side view of a preferred embodiment for the sake of clarity, partly cut and partly taken apart,

Fig. 4 is a side sectional view of a fixing chamber in the fixing mode, and

Fig. 5 is an exaggerated front view taken along one side Section 5-5 of Fig. 4, for the sake of clarity, partially cut and partially disassembled.

The drawings explain a preferred embodiment of the device constructed according to the invention.

Figs. 1 and 2 show an iöto-conductive Film unit 10, a transparent photoconductive film 11 between a first frame 12 and a second version 13 is clamped. Each of these sockets 12 and 13 has an opening 17 through which an image to be recorded is projected on the film 11. The film 11 is essentially made of a photoconductive one Layer 14, a conductive layer 15 and a carrier 16 composed. The photoconductive Layer 14 is a transparent electro-photoconductive material, such as one consisting essentially of poly-N-vinyl carbazole existing photoconductor and the conductive layer 15 a transparent material such as copper (l) iodide. The carrier 16 is made of cellulose triacetate or polyethylene terephthalate.

The photoconductive film unit 10 is used of the so-called slide. A visible image is on the film 11 of the unit 10 by means of a generated by electrophotographic process (see e.g.

U.S. patent application serial no. 122819).

The solvent used in the preferred embodiment is a volatile organic material such as methylene chloride, methyl chloroform, toluene, trichlorethylene, benzene and chloroenzo ¹ . The steam

ίο such a solvent is capable of being photoconductive Layer 14 on which the image is to be worn, easy to soften. Methylene chloride, Toluene and methyl chloroform are characterized by a low degree of toxicity and are therefore advantageous.

The measures and means for fixing the toner image on the photoconductive film 11 are explained with reference to FIGS. 3, 4 and 5. A preferred embodiment of the device is for fixation of the toner roll in a practically vertical position Level suitable. The fixing device consists of a fixing chamber 20 with an evaporation chamber 30, a solvent supply device 40, and a device for moving the film 60.

The fixing chamber 20 has an opening on one side 21. an inlet 22 through which solvent 45 from the supply device for a volatile Solvent 40 is supplied to chamber 20 and a vapor discharge outlet 23 at the lower part thereof.

The opening 21 faces the photoconductive layer of the film unit 10. The opening 21 is larger as the effective image area on the film 11 (or as the opening 17, which is from the frames 12 and 13 is formed). Therefore, an edge 37 around the opening 21 with the photoconductive film unit 10 is through brought into contact the means described below for moving the film. The inlet 22 sits in the upper part of the chamber 20 and protrudes with the solvent supply device 40 a flexible hose 47 in connection. The vapor discharge outlet 23 is a slot which for Discharge of solvent vapor 45 used for fixation to the outside serves.

4 shows the evaporation chamber 30, an evaporation element 31 and a heating element 32 for heating this evaporation element 31 and is arranged within the chamber 20. The evaporation element 31 contains an evaporation chamber 33 for vaporization of the fixing solvent 45, a heat radiation plate 34 and a steam outlet opening 35. The evaporation space 33 is in the upper part of the chamber 20 and adjacent to the heat radiation plate 34 and has one suitable for receiving the fixing solvent 45 through the inlet 22 box-like structure.

The heat radiation plate 34 is arranged within the chamber 20 in the vicinity of the opening 21, closes the fixing chamber up to the passage 35 leading to the evaporation chamber 30 and faces the photoconductive layer of the film 11 and arranged parallel to it. The passage 35 is arranged on the upper part of the heat radiation plate 34 and is not only higher than the upper part of the visible

(15 free image on film 11, but also higher than the bottom of the evaporation space 33.

As FIG. 5 shows, the passage to the steam outlet has a slot-like shape. The at the evaporation

member 31 seated heating element 32 heats the Verdamplungsraum 33 and the heat radiation plate 34 at constant temperature, which is at least higher than the boiling point of the solvent used is 45. The heating element 32 can be made of a material such as nichrome wire or a semiconductor ceramic, and is made using a conventional electrical Power source 39 supplied with energy.

According to FIG. 3, the solvent supply device 40 contains a vessel 41, a pot 42 and a movement member 43. The vessel 41 contains the solvent 45. This solvent 45 is fed into the pot 42 via a line 44. The pot 42 has a solvent outlet 46 which is connected to the inlet 22 of the fixing chamber 20 by a flexible hose 47. The moving member 43 includes a slide rod 48 which moves in the pot 42 and a lever 51 for moving the rod 48. One end of the rod 48 with a cone portion 49 is usually coupled to the solvent outlet 46 and the other end of the Rod 48 has a pin 50 which connects rod 48 to lever 51 . This lever 51 is rotatably seated on the shaft 52.

When the cone portion 49 is coupled to the outlet 46, no solvent 45 flows out of the pot 42. When the rod 48 is moved upward by the lever 51 (as indicated in the direction of arrow 53), solvent 45 flows out of the pot 42 and becomes to the evaporation space 33 in the chamber 20 through the outlet 46, the hose 47 and the inlet 22. The lever 51 is operated with a conventional solenoid (not shown). When the movement of the lever 51 is set at a given speed, a predetermined amount of solvent 45 is supplied into the evaporation space 33 with each movement of the lever 51. A suitable predetermined amount according to the invention is about 0.05 ml.

A detailed structure of the device 60 for moving the chamber 20 is described below. The device 60 consists of a shaft 61 fastened to the chamber 20 , a guide 62 which rests on a support bracket 63, a crank 66 rotatably seated on a shaft 67 and a compression spring 65 which is provided between the chamber 20 and the support bracket 63 . The shaft 61 guided by the guide 62 is horizontally movable and has a pivot 64 which couples the shaft 61 to the crank 66. The crank 66 is usually turned clockwise around the pin fi7 with a drive device (not shown) moves, such as a motor and a solenoid, whereby the shaft 61 moves in the opposite direction of the arrow 68 against the bias of the spring 65, as Fig. 3 indicates

As a result, the chamber 20 is spaced from the photoconductive film unit 10 so that the film unit W can move to another position. On the other hand, the counterclockwise movement of the crank 66 causes the chamber 20 to come into contact with the film unit 10 under the tension of the spring 61

The following describes the operation of the preferred embodiment of the invention. The photographic film unit 10 with a visible image 80 is held in a practically vertical position by a guide rail 70. In the fixing position, the chamber 20 faces the film unit 10. The visible image 80 carries a toner, such as finely divided graphite particles.

First, the crank 66 is moved counterclockwise around the pin 67, so that the Edge 37 of the chamber 20 with the frame of the film unit 10 under the bias of the spring 65 in Is brought into contact, as Fig. 4 shows. Upon completion of this movement, the space 36 between the Fümeinheit 10 and the heat radiation plate 34 is formed.

The space 36 is practically hermetically sealed with the exception of the vapor discharge outlet 23. Subsequently, the predetermined amount of solvent 45 is supplied to the evaporation space 33 through the inlet 22 by means of the solvent supply device 40.

Evaporation space 33 and heat radiation plate 34 are both previously made by the heating element 32 heated to the constant temperature. Accordingly, the supplied solvent 45 is instantly in the room 33 evaporates so that the vapor of the solvent 45 enters the space 36 through the passage 35.

The vapor in the space 36 automatically passes from the passage 35 to the vapor discharge outlet 23 because the specific density of the vapor of the solvent 45 is higher than that of the air. The movement of the vapor causes the vapor with the photoconductive layer of the film U with the visible image 80 in the space 36 comes into contact. Accordingly, the photoconductive layer 14 (as shown in Fig. 2) is softened by the action of the vapor atmosphere of the solvent 45, so that the visible image 80 is fixed on the surface of the film 11 during fixation .

The heated heat radiation plate 34 serves to keep the atmosphere in the room 36 at a constant temperature, as a result of which the steam supplied from the room 33 cannot condense in the room 36 at any point in time. When the vapor condenses in space 36, film 11 and image 80 are disfigured by flaky spots. Furthermore, in order to prevent the possibility that liquid of the solvent 45 is splashed directly on the surface of the film 11 during the generation of steam within the evaporation space 33, the passage 35 is preferably located outside the image area of the recording material covering the chamber opening and has a narrow opening.

According to Fig. 4, the space between the film 1 and d of the heat radiation plate 34 is so sharp! as possible. This gap is approximately 1.0-2.0 mm in the preferred embodiment. In the case of a gap of 1.0 mm, 0.05 ml of solvent is sufficient to fix a film unit 10.

Upon completion of the fixation, the chamber 20 returns to its initial position (as shown in Fig. 3) as a result of the movement of the crank 66 back so that the fixed film unit 10 is in a different position can move. The timing of the above operation is easily made by conventional devices such as Solenoid, motor, microswitch, etc., regulated

The heating element 32 suitable according to the invention is preferably made of a semiconducting ceramic material with a positive temperature coefficient of electrical resistance. The semiconducting ceramic consists essentially of barium titanate and an additional combination of aluminum and silicon oxide (see US Pat. No. 73120). The heating element,

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made of this ceramic has such a characteristic that a by the element flowing electric current decreases with increasing ambient temperature, and vice versa. Hence will be the evaporation element to be heated and the atmosphere within the space 36 automatically a given temperature is regulated (approximately 80 C), which means the effective evaporation of the solvent 45 serves even if the temperature of the heating element 32 is temporarily caused by the latent heat of vaporization of the solvent 45 drops.

On the other hand, in a prior art heating element such as. Nichrome wire, the temperature it is difficult to regulate automatically, and it is necessary to use additional equipment for regulation, like a heating sensor switch. A contact, as in such a switch, depending on the Ambient temperature switches the electric current on and off, can be oxidized, contaminated and weld together during a long period of operation and eventually stop working.

The device according to the invention fixes a visible image on the photoconductive layer of the film without image distortion in the presence of solvent vapor. Therefore it is suitable for a device for Fixation of a micro-image (microfilm) generated on the transparent film and also for a device for Paragraph-wise fixing of a frame of the previously

15th

25 film attached to a slide mount cardboard or aperture card.

The space 36 for absorbing the steam can during the fixation in its capacity by the effective combination with chamber 20 and vaporizer 30 to a minimum limited so that the consumption of the fixing solvent 45 to a small amount, such as 0.05 ml per film unit, is reduced. Therefore, the device according to the invention leads to a lower one Loading the atmosphere with steam, a reduction in ventilation measures and brings for the Surgeon no inconvenience

The evaporation chamber 33 and the passage to the vapor outlet 35 are from the surface of the film remotely located so that spots on the film due to undesired contact of the liquid with the film be avoided.

Furthermore, the steam used for fixation is automatically discharged from the chamber to the outside through the discharge outlet because the fixing chamber faces the film practically vertically.

The heating element with the positive temperature coefficient of electrical resistance regulates automatically the temperature of the parts to be heated. Therefore it is not necessary to use additional equipment Provide temperature control and the electrical power source.

For this purpose 2 sheets of drawings 709514/34

Claims (4)

Patent claims: 1. Fixing device for fixing a toner image on an organic photoconductor existing photoconductive layer of a film-like recording material, with a fixing chamber, which has an opening covering the image to be fixed, and one in the fixing chamber arranged evaporation chamber, which has an inlet with a supply device for a volatile Solvent is connected and is in heat exchange with a heating element, marked by means for moving the recording material relatively and perpendicularly to the opening plane of the fixing kernmei in order to seal the opening airtight with the photoconductive layer, and by one arranged in the fixing chamber with the heating element of the evaporation chamber in heat exchange standing heat radiation plate, which the opening plane of the Fixing chamber faces parallel to the surface to form a narrow space and the fixing chamber except for a passage leading to the evaporation chamber. 2. Apparatus according to claim 1, characterized in that the fixing chamber in the region of the by the heat radiation plate and its opening plane certain space opposite one the passage leading to the evaporation chamber at the other end of the heat radiation plate has lying outlet for the solvent vapor. 3. Apparatus according to claim 2, characterized in that the fixing chamber opening on the The image format to be fixed is adjusted so that the passage to the evaporation chamber lies outside the image area of the recording material covering the chamber opening. 4. Device according to one of the preceding claims, characterized in that the heating element Made of a semiconducting ceramic material with a positive temperature coefficient of resistance is made and dimensioned so that the heat of vaporization in the evaporation chamber and via the heat radiation plate, the steam atmosphere in the space defined by it is maintained.